Graphite
Application | ||
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In the automotive industry, Imerys synthetic graphites are prized solutions for the production of lithium-ion batteries used to power new-generation electric vehicles, where they boost energy density and shorten charging times. In hybrid vehicles, Imerys combined graphite-carbon black additives improve electrical conductivity, life cycle and charge acceptance of advanced lead-acid batteries used in cars equipped with start-stop function and recovery of brake energy, and in micro-hybrid cars. Graphites are also used in the production of thermally conductive polymers used more and more as a metal replacement in the production of automotive parts. In alkaline batteries, highly crystalline Imerys graphite powders boost the electrical conductivity, mechanical stability and processability of cathode rings and graphite dispersions are used on the inner surface of the battery to increase electrical conductivity and corrosion resistance. Graphite is a key ingredient used in polymer and rubber compounds for the manufacture of electronic device housings, seals and gaskets, friction parts, heat exchangers, parts with high operating temperatures, gas barrier membranes, high voltage cables, where reinforcement, electrical and/or thermal conductivity, lubrication and wear resistance are key parameters. In metallurgy applications, natural flake graphite is used as an additive in specialized refractories such as magnesia-carbon bricks. Natural and synthetic graphite are also excellent solutions for hot metal toppings due to their good size distribution and thickness, purity, oxidation resistance and thermal conductivity. Other applications for graphite include fuel cells, brake pads, carbon brushes, supercapacitors, heat-exchange foils, sintered ceramics, hard metals, refractories, pencil leads, lubricants, can coatings, catalysts and synthetic diamonds |
Description | ||
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Natural graphite is one of the crystalline forms of the element carbon. Its atoms are arranged in a hexagonal structure and form in a layered structure. Natural graphite occurs in metamorphic rocks as well as in igneous rocks and meteorites. Under high pressures and temperatures, it converts to diamond. Synthetic graphite is produced through a complex process of baking petroleum coke at very high temperatures. Synthetic graphite can have a purity of over 99% carbon, and it is used in manufactured products where extremely pure material is required. Graphite is extremely soft, cleaves with very light pressure, and has a very low specific gravity. It is a good conductor of heat and electricity making it a useful mineral for metallurgy applications and for the production of batteries, amongst many others. Physical properties: - Electrical conductivity - Thermal conductivity - Self-lubrication - High melting point - Corrosion resistance - Insoluble in water - Chemically inert |
Product Properties
Set 1
Chemical Formula
Packaging
Package Type | Weight/Volume per Package | |
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Bag | 25 lb | |
Package Type | Weight/Volume per Package | |
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Bag | 50 lb | |
Pricing
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Documents
Product Champions
General Info
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Product |
Published | ||
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Dec 15, 2022 |
Last Edited | ||
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Dec 15, 2022 |
Categories | ||
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Chemicals |
